Working memory is the fundamental function by which we break free from reflexive input-
output reactions to gain control over our own thoughts. It has two types of mechanisms …

We are continuously bombarded by external inputs of various timescales from the
environment. How does the brain process this multitude of timescales? Recent resting state …

Multimodal evidence suggests that brain regions accumulate information over timescales
that vary according to anatomical hierarchy. Thus, these experimentally defined “temporal …

We process and integrate multiple timescales into one meaningful whole. Recent evidence
suggests that the brain displays a complex multiscale temporal organization. Different …

Complex cognitive functions such as working memory and decision-making require
information maintenance over seconds to years, from transient sensory stimuli to long-term …

The neocortex is a complex neurobiological system with many interacting regions. How
these regions work together to subserve flexible behavior and cognition has become …

Brain regions vary in their molecular and cellular composition, but how this heterogeneity
shapes neuronal dynamics is unclear. Here, we investigate the dynamical consequences of …

Cortical neurons process information on multiple timescales, and areas important for
working memory (WM) contain neurons capable of integrating information over a long …

Control processes associated with working memory play a central role in human cognition,
but their underlying dynamic brain circuit mechanisms are poorly understood. Here we use …

Cognition depends on integrating sensory percepts with the memory of recent stimuli.
However, the distributed nature of neural coding can lead to interference between sensory …